havent posted the full article just this part.
Isolating fiber types in training.
Forget about the notion of isolating fiber types while training for hypertrophy. You can't isolate fiber types per se when lifting a weight sufficiently heavy to cause muscle growth. Let me explain. Your brain activates muscle fibers in a specific sequence and manner based on the kind of movement it desires. This progressive activation of muscle fibers is called recruitment. Small "motor units" (motor neuron-muscle fiber unit with a low threshold of activation) are activated first to produce precise movements. These small motor units use slow-twitch fibers.
If activation of the inductive small motor units is insufficient to produce the desired movement, the brain activates progressively larger and higher threshold motor units. These larger motor units involve fast twitch fibers.
So, slow-twitch fibers are recruited first, followed by fast twitch fibers, based on the needed amount of strength (force or power). Because of this recruitment pattern, you could theoretically isolate small slow-twitch fibers, but you couldn't isolate fast twitch fibers because your brain activates slow-twitch first during any contraction. The greater the force of contraction, the greater the number of fast twitch fibers will be activated, but only after all slow twitch-fibers are activated.
So picture in your mind a dial that goes from 0 - 11. The numbers indicate how much force you want the muscle to generate, 0 being none and 11 being maximum intensity contraction. ON the dial, going from 1-5 the body will activate an increasing number of small motor units (slow twitch fibers) until it has activated them all. From 5-11, the small motor units will remain activated, but the body will add to them, large motor units (fast twitch fibers) until the desired muscular force is achieved. You progressively fine motor control as the amount of force goes up. This is a manifestation of the recruitment pattern just described.
Fiber type and muscle hypertrophy
Both slow twitch and fast twitch fiber are able to hypertrophy when exposed to overload. In a study by Hortobagyi, muscle fiber size of the quadriceps were compared after 36 sessions (12 weeks) of maximal isokinetic concentric or eccentric leg extensions. Type I fiber areas did not change significantly, but type II fiber area increased approximately 10 times more in the eccentric than in the concentric group.
There is a tendency for fast twitch fibers to experience more damage from training, thus fast twitch fibers tend to hypertrophy "more readily" to heavy resistance exercise. Nevertheless, both fast and slow twitch fibers hypertrophy. If you look at a bodybuilder's cross section of muscle fibers, you will find both fiber types hypertrophied, this being due to the inclusion of both concentric and eccentric contractions under load.
In conclusion fibers are classified into two different types, fast and slow. The distinction between the two types of fibers is based on both their contractile properties, as well as their metabolic properties. Slow twitch fibers, associated with small motor units, are activated first when a effort is applied against an object. Once all small motor units have been activated large motor units, involving primarily fast twitch fibers are activated.
All exercises performed by a person trying to build muscle are, of necessity, performed using sufficient weight to activate all slow twitch fibers and most fast twitch fibers. Both slow and fast twitch fibers will then hypertrophy. Fast twitch fibers will hypertrophy first, and to a greater extent, due to their susceptibility to cellular micro-trauma during the eccentric portion of every rep.
When trying to grow muscle, it is worthless to try to adjust the program to "stimulate" or "isolate" any specific type of fiber. Recruitment patterns involved in lifting weights heavy enough to cause hypertrophy activate all fibers, both fast and slow.
References:
Cope, T. C, and M. J. Pinter. The size principle: still working after all these years. News Physiol. Sci. 10: 280-286, 1995
Hortobagyi T, Hill JP, Houmard JA, Fraser DD, & colleagues. Adaptive responses to muscle lengthening and shortening in humans. J. Appl. Physiol. 80(3): 765-772, 1996
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About the Author
Bryan Haycock M.Sc. is an exercise physiologist and NPC judge. Bryan has been bodybuilding for over 20 years and holds certifications with the NSCA, ACE, and is a member of the American College of Sports Medicine. Bryan is currently the Editor in Chief of ThinkMuscle.com and is the founder and CEO of LifeStyleMgmt.com. Bryan is a highly sought after authority on the physiology of muscle growth and fat loss. Bryan also specializes in the management of type-II diabetes through diet and exercise.
